/**
 * @license Highstock JS v11.1.0 (2023-06-05)
 *
 * Indicator series type for Highcharts Stock
 *
 * (c) 2010-2021 Sebastian Bochan
 *
 * License: www.highcharts.com/license
 */
(function (factory) {
    if (typeof module === 'object' && module.exports) {
        factory['default'] = factory;
        module.exports = factory;
    } else if (typeof define === 'function' && define.amd) {
        define('highcharts/indicators/ichimoku-kinko-hyo', ['highcharts', 'highcharts/modules/stock'], function (Highcharts) {
            factory(Highcharts);
            factory.Highcharts = Highcharts;
            return factory;
        });
    } else {
        factory(typeof Highcharts !== 'undefined' ? Highcharts : undefined);
    }
}(function (Highcharts) {
    'use strict';
    var _modules = Highcharts ? Highcharts._modules : {};
    function _registerModule(obj, path, args, fn) {
        if (!obj.hasOwnProperty(path)) {
            obj[path] = fn.apply(null, args);

            if (typeof CustomEvent === 'function') {
                window.dispatchEvent(
                    new CustomEvent(
                        'HighchartsModuleLoaded',
                        { detail: { path: path, module: obj[path] }
                    })
                );
            }
        }
    }
    _registerModule(_modules, 'Stock/Indicators/IKH/IKHIndicator.js', [_modules['Extensions/DataGrouping/ApproximationRegistry.js'], _modules['Core/Color/Color.js'], _modules['Core/Series/SeriesRegistry.js'], _modules['Core/Utilities.js']], function (ApproximationRegistry, Color, SeriesRegistry, U) {
        /* *
         *
         *  License: www.highcharts.com/license
         *
         *  !!!!!!! SOURCE GETS TRANSPILED BY TYPESCRIPT. EDIT TS FILE ONLY. !!!!!!!
         *
         * */
        const { parse: color } = Color;
        const { sma: SMAIndicator } = SeriesRegistry.seriesTypes;
        const { defined, extend, isArray, isNumber, getClosestDistance, merge, objectEach } = U;
        /* *
         *
         *  Functions
         *
         * */
        /**
         * @private
         */
        function maxHigh(arr) {
            return arr.reduce(function (max, res) {
                return Math.max(max, res[1]);
            }, -Infinity);
        }
        /**
         * @private
         */
        function minLow(arr) {
            return arr.reduce(function (min, res) {
                return Math.min(min, res[2]);
            }, Infinity);
        }
        /**
         * @private
         */
        function highlowLevel(arr) {
            return {
                high: maxHigh(arr),
                low: minLow(arr)
            };
        }
        /**
         * Check two lines intersection (line a1-a2 and b1-b2)
         * Source: https://en.wikipedia.org/wiki/Line%E2%80%93line_intersection
         * @private
         */
        function checkLineIntersection(a1, a2, b1, b2) {
            if (a1 && a2 && b1 && b2) {
                const saX = a2.plotX - a1.plotX, // Auxiliary section a2-a1 X
                saY = a2.plotY - a1.plotY, // Auxiliary section a2-a1 Y
                sbX = b2.plotX - b1.plotX, // Auxiliary section b2-b1 X
                sbY = b2.plotY - b1.plotY, // Auxiliary section b2-b1 Y
                sabX = a1.plotX - b1.plotX, // Auxiliary section a1-b1 X
                sabY = a1.plotY - b1.plotY, // Auxiliary section a1-b1 Y
                // First degree Bézier parameters
                u = (-saY * sabX + saX * sabY) / (-sbX * saY + saX * sbY), t = (sbX * sabY - sbY * sabX) / (-sbX * saY + saX * sbY);
                if (u >= 0 && u <= 1 && t >= 0 && t <= 1) {
                    return {
                        plotX: a1.plotX + t * saX,
                        plotY: a1.plotY + t * saY
                    };
                }
            }
        }
        /**
         * Parameter opt (indicator options object) include indicator, points,
         * nextPoints, color, options, gappedExtend and graph properties
         * @private
         */
        function drawSenkouSpan(opt) {
            const indicator = opt.indicator;
            indicator.points = opt.points;
            indicator.nextPoints = opt.nextPoints;
            indicator.color = opt.color;
            indicator.options = merge(opt.options.senkouSpan.styles, opt.gap);
            indicator.graph = opt.graph;
            indicator.fillGraph = true;
            SeriesRegistry.seriesTypes.sma.prototype.drawGraph.call(indicator);
        }
        /**
         * Data integrity in Ichimoku is different than default 'averages':
         * Point: [undefined, value, value, ...] is correct
         * Point: [undefined, undefined, undefined, ...] is incorrect
         * @private
         */
        function ichimokuAverages() {
            const ret = [];
            let isEmptyRange;
            [].forEach.call(arguments, function (arr, i) {
                ret.push(ApproximationRegistry.average(arr));
                isEmptyRange = !isEmptyRange && typeof ret[i] === 'undefined';
            });
            // Return undefined when first elem. is undefined and let
            // sum method handle null (#7377)
            return isEmptyRange ? void 0 : ret;
        }
        /* *
         *
         *  Class
         *
         * */
        /**
         * The IKH series type.
         *
         * @private
         * @class
         * @name Highcharts.seriesTypes.ikh
         *
         * @augments Highcharts.Series
         */
        class IKHIndicator extends SMAIndicator {
            constructor() {
                /* *
                 *
                 *  Static Properties
                 *
                 * */
                super(...arguments);
                /* *
                 *
                 *  Properties
                 *
                 * */
                this.data = [];
                this.options = {};
                this.points = [];
                this.graphCollection = [];
            }
            /* *
             *
             * Functions
             *
             * */
            init() {
                super.init.apply(this, arguments);
                // Set default color for lines:
                this.options = merge({
                    tenkanLine: {
                        styles: {
                            lineColor: this.color
                        }
                    },
                    kijunLine: {
                        styles: {
                            lineColor: this.color
                        }
                    },
                    chikouLine: {
                        styles: {
                            lineColor: this.color
                        }
                    },
                    senkouSpanA: {
                        styles: {
                            lineColor: this.color,
                            fill: color(this.color).setOpacity(0.5).get()
                        }
                    },
                    senkouSpanB: {
                        styles: {
                            lineColor: this.color,
                            fill: color(this.color).setOpacity(0.5).get()
                        }
                    },
                    senkouSpan: {
                        styles: {
                            fill: color(this.color).setOpacity(0.2).get()
                        }
                    }
                }, this.options);
            }
            toYData(point) {
                return [
                    point.tenkanSen,
                    point.kijunSen,
                    point.chikouSpan,
                    point.senkouSpanA,
                    point.senkouSpanB
                ];
            }
            translate() {
                const indicator = this;
                SeriesRegistry.seriesTypes.sma.prototype.translate.apply(indicator);
                for (const point of indicator.points) {
                    for (const key of indicator.pointArrayMap) {
                        const pointValue = point[key];
                        if (isNumber(pointValue)) {
                            point['plot' + key] = indicator.yAxis.toPixels(pointValue, true);
                            // Add extra parameters for support tooltip in moved
                            // lines
                            point.plotY = point['plot' + key];
                            point.tooltipPos = [
                                point.plotX,
                                point['plot' + key]
                            ];
                            point.isNull = false;
                        }
                    }
                }
            }
            drawGraph() {
                const indicator = this, mainLinePoints = indicator.points, mainLineOptions = indicator.options, mainLinePath = indicator.graph, mainColor = indicator.color, gappedExtend = {
                    options: {
                        gapSize: mainLineOptions.gapSize
                    }
                }, pointArrayMapLength = indicator.pointArrayMap.length, allIchimokuPoints = [
                    [],
                    [],
                    [],
                    [],
                    [],
                    []
                ], ikhMap = {
                    tenkanLine: allIchimokuPoints[0],
                    kijunLine: allIchimokuPoints[1],
                    chikouLine: allIchimokuPoints[2],
                    senkouSpanA: allIchimokuPoints[3],
                    senkouSpanB: allIchimokuPoints[4],
                    senkouSpan: allIchimokuPoints[5]
                }, intersectIndexColl = [], senkouSpanOptions = indicator
                    .options.senkouSpan, color = senkouSpanOptions.color ||
                    senkouSpanOptions.styles.fill, negativeColor = senkouSpanOptions.negativeColor, 
                // Points to create color and negativeColor senkouSpan
                points = [
                    [],
                    [] // Points negative color
                ], 
                // For span, we need an access to the next points, used in
                // getGraphPath()
                nextPoints = [
                    [],
                    [] // NextPoints negative color
                ];
                let pointsLength = mainLinePoints.length, lineIndex = 0, position, point, i, startIntersect, endIntersect, sectionPoints, sectionNextPoints, pointsPlotYSum, nextPointsPlotYSum, senkouSpanTempColor, concatArrIndex, j, k;
                indicator.ikhMap = ikhMap;
                // Generate points for all lines and spans lines:
                while (pointsLength--) {
                    point = mainLinePoints[pointsLength];
                    for (i = 0; i < pointArrayMapLength; i++) {
                        position = indicator.pointArrayMap[i];
                        if (defined(point[position])) {
                            allIchimokuPoints[i].push({
                                plotX: point.plotX,
                                plotY: point['plot' + position],
                                isNull: false
                            });
                        }
                    }
                    if (negativeColor && pointsLength !== mainLinePoints.length - 1) {
                        // Check if lines intersect
                        const index = ikhMap.senkouSpanB.length - 1, intersect = checkLineIntersection(ikhMap.senkouSpanA[index - 1], ikhMap.senkouSpanA[index], ikhMap.senkouSpanB[index - 1], ikhMap.senkouSpanB[index]);
                        if (intersect) {
                            const intersectPointObj = {
                                plotX: intersect.plotX,
                                plotY: intersect.plotY,
                                isNull: false,
                                intersectPoint: true
                            };
                            // Add intersect point to ichimoku points collection
                            // Create senkouSpan sections
                            ikhMap.senkouSpanA.splice(index, 0, intersectPointObj);
                            ikhMap.senkouSpanB.splice(index, 0, intersectPointObj);
                            intersectIndexColl.push(index);
                        }
                    }
                }
                // Modify options and generate lines:
                objectEach(ikhMap, (values, lineName) => {
                    if (mainLineOptions[lineName] &&
                        lineName !== 'senkouSpan') {
                        // First line is rendered by default option
                        indicator.points = allIchimokuPoints[lineIndex];
                        indicator.options = merge(mainLineOptions[lineName].styles, gappedExtend);
                        indicator.graph = indicator['graph' + lineName];
                        indicator.fillGraph = false;
                        indicator.color = mainColor;
                        SeriesRegistry.seriesTypes.sma.prototype.drawGraph.call(indicator);
                        // Now save line
                        indicator['graph' + lineName] = indicator.graph;
                    }
                    lineIndex++;
                });
                // Generate senkouSpan area:
                // If graphCollection exist then remove svg
                // element and indicator property
                if (indicator.graphCollection) {
                    for (const graphName of indicator.graphCollection) {
                        indicator[graphName].destroy();
                        delete indicator[graphName];
                    }
                }
                // Clean graphCollection or initialize it
                indicator.graphCollection = [];
                // When user set negativeColor property
                if (negativeColor && ikhMap.senkouSpanA[0] && ikhMap.senkouSpanB[0]) {
                    // Add first and last point to senkouSpan area sections
                    intersectIndexColl.unshift(0);
                    intersectIndexColl.push(ikhMap.senkouSpanA.length - 1);
                    // Populate points and nextPoints arrays
                    for (j = 0; j < intersectIndexColl.length - 1; j++) {
                        startIntersect = intersectIndexColl[j];
                        endIntersect = intersectIndexColl[j + 1];
                        sectionPoints = ikhMap.senkouSpanB.slice(startIntersect, endIntersect + 1);
                        sectionNextPoints = ikhMap.senkouSpanA.slice(startIntersect, endIntersect + 1);
                        // Add points to color or negativeColor arrays
                        // Check the middle point (if exist)
                        if (Math.floor(sectionPoints.length / 2) >= 1) {
                            const x = Math.floor(sectionPoints.length / 2);
                            // When middle points has equal values
                            // Compare all points plotY value sum
                            if (sectionPoints[x].plotY === sectionNextPoints[x].plotY) {
                                pointsPlotYSum = 0;
                                nextPointsPlotYSum = 0;
                                for (k = 0; k < sectionPoints.length; k++) {
                                    pointsPlotYSum += sectionPoints[k].plotY;
                                    nextPointsPlotYSum += sectionNextPoints[k].plotY;
                                }
                                concatArrIndex =
                                    pointsPlotYSum > nextPointsPlotYSum ? 0 : 1;
                                points[concatArrIndex] = points[concatArrIndex].concat(sectionPoints);
                                nextPoints[concatArrIndex] = nextPoints[concatArrIndex].concat(sectionNextPoints);
                            }
                            else {
                                // Compare middle point of the section
                                concatArrIndex = (sectionPoints[x].plotY > sectionNextPoints[x].plotY) ? 0 : 1;
                                points[concatArrIndex] = points[concatArrIndex].concat(sectionPoints);
                                nextPoints[concatArrIndex] = nextPoints[concatArrIndex].concat(sectionNextPoints);
                            }
                        }
                        else {
                            // Compare first point of the section
                            concatArrIndex = (sectionPoints[0].plotY > sectionNextPoints[0].plotY) ? 0 : 1;
                            points[concatArrIndex] = points[concatArrIndex].concat(sectionPoints);
                            nextPoints[concatArrIndex] = nextPoints[concatArrIndex].concat(sectionNextPoints);
                        }
                    }
                    // Render color and negativeColor paths
                    ['graphsenkouSpanColor', 'graphsenkouSpanNegativeColor'].forEach(function (areaName, i) {
                        if (points[i].length && nextPoints[i].length) {
                            senkouSpanTempColor = i === 0 ? color : negativeColor;
                            drawSenkouSpan({
                                indicator: indicator,
                                points: points[i],
                                nextPoints: nextPoints[i],
                                color: senkouSpanTempColor,
                                options: mainLineOptions,
                                gap: gappedExtend,
                                graph: indicator[areaName]
                            });
                            // Now save line
                            indicator[areaName] = indicator.graph;
                            indicator.graphCollection.push(areaName);
                        }
                    });
                }
                else {
                    // When user set only senkouSpan style.fill property
                    drawSenkouSpan({
                        indicator: indicator,
                        points: ikhMap.senkouSpanB,
                        nextPoints: ikhMap.senkouSpanA,
                        color: color,
                        options: mainLineOptions,
                        gap: gappedExtend,
                        graph: indicator.graphsenkouSpan
                    });
                    // Now save line
                    indicator.graphsenkouSpan = indicator.graph;
                }
                // Clean temporary properties:
                delete indicator.nextPoints;
                delete indicator.fillGraph;
                // Restore options and draw the Tenkan line:
                indicator.points = mainLinePoints;
                indicator.options = mainLineOptions;
                indicator.graph = mainLinePath;
                indicator.color = mainColor;
            }
            getGraphPath(points) {
                const indicator = this;
                let path = [], spanA, spanAarr = [];
                points = points || this.points;
                // Render Senkou Span
                if (indicator.fillGraph && indicator.nextPoints) {
                    spanA = SeriesRegistry.seriesTypes.sma.prototype.getGraphPath.call(indicator, 
                    // Reverse points, so Senkou Span A will start from the end:
                    indicator.nextPoints);
                    if (spanA && spanA.length) {
                        spanA[0][0] = 'L';
                        path = SeriesRegistry.seriesTypes.sma.prototype.getGraphPath
                            .call(indicator, points);
                        spanAarr = spanA.slice(0, path.length);
                        for (let i = spanAarr.length - 1; i >= 0; i--) {
                            path.push(spanAarr[i]);
                        }
                    }
                }
                else {
                    path = SeriesRegistry.seriesTypes.sma.prototype.getGraphPath
                        .apply(indicator, arguments);
                }
                return path;
            }
            getValues(series, params) {
                const period = params.period, periodTenkan = params.periodTenkan, periodSenkouSpanB = params.periodSenkouSpanB, xVal = series.xData, yVal = series.yData, xAxis = series.xAxis, yValLen = (yVal && yVal.length) || 0, closestPointRange = getClosestDistance(xAxis.series.map((s) => s.xData || [])), IKH = [], xData = [];
                let date, slicedTSY, slicedKSY, slicedSSBY, pointTS, pointKS, pointSSB, i, TS, KS, CS, SSA, SSB;
                // Ikh requires close value
                if (xVal.length <= period ||
                    !isArray(yVal[0]) ||
                    yVal[0].length !== 4) {
                    return;
                }
                // Add timestamps at the beginning
                const dateStart = xVal[0] - period * closestPointRange;
                for (i = 0; i < period; i++) {
                    xData.push(dateStart + i * closestPointRange);
                }
                for (i = 0; i < yValLen; i++) {
                    // Tenkan Sen
                    if (i >= periodTenkan) {
                        slicedTSY = yVal.slice(i - periodTenkan, i);
                        pointTS = highlowLevel(slicedTSY);
                        TS = (pointTS.high + pointTS.low) / 2;
                    }
                    if (i >= period) {
                        slicedKSY = yVal.slice(i - period, i);
                        pointKS = highlowLevel(slicedKSY);
                        KS = (pointKS.high + pointKS.low) / 2;
                        SSA = (TS + KS) / 2;
                    }
                    if (i >= periodSenkouSpanB) {
                        slicedSSBY = yVal.slice(i - periodSenkouSpanB, i);
                        pointSSB = highlowLevel(slicedSSBY);
                        SSB = (pointSSB.high + pointSSB.low) / 2;
                    }
                    CS = yVal[i][3];
                    date = xVal[i];
                    if (typeof IKH[i] === 'undefined') {
                        IKH[i] = [];
                    }
                    if (typeof IKH[i + period - 1] === 'undefined') {
                        IKH[i + period - 1] = [];
                    }
                    IKH[i + period - 1][0] = TS;
                    IKH[i + period - 1][1] = KS;
                    IKH[i + period - 1][2] = void 0;
                    if (typeof IKH[i + 1] === 'undefined') {
                        IKH[i + 1] = [];
                    }
                    IKH[i + 1][2] = CS;
                    if (i <= period) {
                        IKH[i + period - 1][3] = void 0;
                        IKH[i + period - 1][4] = void 0;
                    }
                    if (typeof IKH[i + 2 * period - 2] === 'undefined') {
                        IKH[i + 2 * period - 2] = [];
                    }
                    IKH[i + 2 * period - 2][3] = SSA;
                    IKH[i + 2 * period - 2][4] = SSB;
                    xData.push(date);
                }
                // Add timestamps for further points
                for (i = 1; i <= period; i++) {
                    xData.push(date + i * closestPointRange);
                }
                return {
                    values: IKH,
                    xData: xData,
                    yData: IKH
                };
            }
        }
        /**
         * Ichimoku Kinko Hyo (IKH). This series requires `linkedTo` option to be
         * set.
         *
         * @sample stock/indicators/ichimoku-kinko-hyo
         *         Ichimoku Kinko Hyo indicator
         *
         * @extends      plotOptions.sma
         * @since        6.0.0
         * @excluding    allAreas, colorAxis, compare, compareBase, joinBy, keys,
         *               navigatorOptions, pointInterval, pointIntervalUnit,
         *               pointPlacement, pointRange, pointStart, showInNavigator,
         *               stacking
         * @product      highstock
         * @requires     stock/indicators/indicators
         * @requires     stock/indicators/ichimoku-kinko-hyo
         * @optionparent plotOptions.ikh
         */
        IKHIndicator.defaultOptions = merge(SMAIndicator.defaultOptions, {
            /**
             * @excluding index
             */
            params: {
                index: void 0,
                period: 26,
                /**
                 * The base period for Tenkan calculations.
                 */
                periodTenkan: 9,
                /**
                 * The base period for Senkou Span B calculations
                 */
                periodSenkouSpanB: 52
            },
            marker: {
                enabled: false
            },
            tooltip: {
                pointFormat: '<span style="color:{point.color}">\u25CF</span> <b> {series.name}</b><br/>' +
                    'TENKAN SEN: {point.tenkanSen:.3f}<br/>' +
                    'KIJUN SEN: {point.kijunSen:.3f}<br/>' +
                    'CHIKOU SPAN: {point.chikouSpan:.3f}<br/>' +
                    'SENKOU SPAN A: {point.senkouSpanA:.3f}<br/>' +
                    'SENKOU SPAN B: {point.senkouSpanB:.3f}<br/>'
            },
            /**
             * The styles for Tenkan line
             */
            tenkanLine: {
                styles: {
                    /**
                     * Pixel width of the line.
                     */
                    lineWidth: 1,
                    /**
                     * Color of the line.
                     *
                     * @type {Highcharts.ColorString}
                     */
                    lineColor: void 0
                }
            },
            /**
             * The styles for Kijun line
             */
            kijunLine: {
                styles: {
                    /**
                     * Pixel width of the line.
                     */
                    lineWidth: 1,
                    /**
                     * Color of the line.
                     *
                     * @type {Highcharts.ColorString}
                     */
                    lineColor: void 0
                }
            },
            /**
             * The styles for Chikou line
             */
            chikouLine: {
                styles: {
                    /**
                     * Pixel width of the line.
                     */
                    lineWidth: 1,
                    /**
                     * Color of the line.
                     *
                     * @type {Highcharts.ColorString}
                     */
                    lineColor: void 0
                }
            },
            /**
             * The styles for Senkou Span A line
             */
            senkouSpanA: {
                styles: {
                    /**
                     * Pixel width of the line.
                     */
                    lineWidth: 1,
                    /**
                     * Color of the line.
                     *
                     * @type {Highcharts.ColorString}
                     */
                    lineColor: void 0
                }
            },
            /**
             * The styles for Senkou Span B line
             */
            senkouSpanB: {
                styles: {
                    /**
                     * Pixel width of the line.
                     */
                    lineWidth: 1,
                    /**
                     * Color of the line.
                     *
                     * @type {Highcharts.ColorString}
                     */
                    lineColor: void 0
                }
            },
            /**
             * The styles for area between Senkou Span A and B.
             */
            senkouSpan: {
                /**
                 * Color of the area between Senkou Span A and B,
                 * when Senkou Span A is above Senkou Span B. Note that if
                 * a `style.fill` is defined, the `color` takes precedence and
                 * the `style.fill` is ignored.
                 *
                 * @see [senkouSpan.styles.fill](#series.ikh.senkouSpan.styles.fill)
                 *
                 * @sample stock/indicators/ichimoku-kinko-hyo
                 *         Ichimoku Kinko Hyo color
                 *
                 * @type      {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
                 * @since     7.0.0
                 * @apioption plotOptions.ikh.senkouSpan.color
                 */
                /**
                 * Color of the area between Senkou Span A and B,
                 * when Senkou Span A is under Senkou Span B.
                 *
                 * @sample stock/indicators/ikh-negative-color
                 *         Ichimoku Kinko Hyo negativeColor
                 *
                 * @type      {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
                 * @since     7.0.0
                 * @apioption plotOptions.ikh.senkouSpan.negativeColor
                 */
                styles: {
                    /**
                     * Color of the area between Senkou Span A and B.
                     *
                     * @deprecated
                     * @type {Highcharts.ColorString|Highcharts.GradientColorObject|Highcharts.PatternObject}
                     */
                    fill: 'rgba(255, 0, 0, 0.5)'
                }
            },
            dataGrouping: {
                approximation: 'ichimoku-averages'
            }
        });
        extend(IKHIndicator.prototype, {
            pointArrayMap: [
                'tenkanSen',
                'kijunSen',
                'chikouSpan',
                'senkouSpanA',
                'senkouSpanB'
            ],
            pointValKey: 'tenkanSen',
            nameComponents: ['periodSenkouSpanB', 'period', 'periodTenkan']
        });
        /* *
         *
         *  Registry
         *
         * */
        ApproximationRegistry['ichimoku-averages'] = ichimokuAverages;
        SeriesRegistry.registerSeriesType('ikh', IKHIndicator);
        /* *
         *
         *  Default Export
         *
         * */
        /* *
         *
         *  API Options
         *
         * */
        /**
         * A `IKH` series. If the [type](#series.ikh.type) option is not
         * specified, it is inherited from [chart.type](#chart.type).
         *
         * @extends   series,plotOptions.ikh
         * @since     6.0.0
         * @product   highstock
         * @excluding dataParser, dataURL
         * @requires  stock/indicators/indicators
         * @requires  stock/indicators/ichimoku-kinko-hyo
         * @apioption series.ikh
         */
        (''); // add doclet above to transpiled file

        return IKHIndicator;
    });
    _registerModule(_modules, 'masters/indicators/ichimoku-kinko-hyo.src.js', [], function () {


    });
}));